Centrifugal governor



June 14, 1949. RQDECK ET AL 2,473,449

I CENTRIFUGAL GOVERNOR Filed Sept. 28, 1944 4 Sheets-Sheet l INVENTOR ARMm H. RODECK AND ALBERT G MASSEY ATTORNEYS June 14,, 1949. RODECK ET AL 2,473,449

CENTRIFUGAL GOVERNOR Filed Sept. 28, 1944 4 Sheets-Sheet 2 INVENTOR. ARMIN H. RODECK AND ALBERT G. MASSEY aw, Oil-11,

June 14, 1949. RQDECKET AL 2,473,449

CENTRIFUGAL GOVERNOR Filed Sept. 28, 1944 4 Sheeis-Sheet s IOU H6. I20

mmnnmmu in; I33 I50 L. i I35 AVWWA W D03 I4 I w INVENTOR ARMIN H. RODECK AND ALBERT G. MASSEY a ATTORNEYS J4me 14, 1949. A, H. RODECK 5T AL 2,473,449

CENTRIFUGAL GOVERNOR INVENTOR ARMIN H RODECK AND ALBERT G. MAsss 4 Mam, ATTORNEYS Patented June 14, 1949 UNITED STATES PATENT OFF-ICE Arinin H. Bo'deek and Albert G. Massey, Water-- town, N. Y., ossigii rs to 'Ma'ssey Machine com- ApplicationSeptember 28, 1944, serial No. #556,144

"10 Claims. 1

This inventio'n'relates to speed regulating means and particularly to governors of the class wherein the varying centrifugal effect of varying speeds of rotation'isemployed'in a fiyweight mechanism to govern a prime mover or other apparatus. The present invention provides novel governor flyweig'ht arrangements and novel supporting means and the contemplated construction afiords large masses 'jforrespohse to 'centrifugal forces within unusually small compases. Further, the governor 'flywei'ght supporting and controlling means is such that very minute changes in flyweight position automatically give a greatly magnified response to the 's'p'eeder connecting means, so that very accurate governing is automatically made possible. without any special necessity for unusual or extraordinary precision of manufacture. Further, the governor fiyweight arrangement is such that the usual axial thrust components of mechanisms of this kind are balanced outin such a way as to be virtually eliminated.

in the governor constructions here proposed the speeder spring arrangement and support is likewise novel and .provides novel means for controlling the sensitivity or degree of fluctuation of the governor, that is, the proportionate amount which the flyweights move in response to a given load or speed change. Provi'sionis also made for setting the initial tension of the speed'e'r spring to determine the speed setting of the governor and this setting'may be 'freely varied during governor operation by manipulation of ak'nob located externally of the governor casing.

The fiyweight arrangement of the governor of the present invention, in both of the exemplary forms illustrated herein, is such that the individual Weights maintain a constant attitude during movement toward and away from the governor shaft; that is,theymaintaintheir-initial vertical position and do not revolve about central pivotal "connections, as in conventional flyweight arrangements. This makes the calculation and prediction of governor behavior afar more exact procedure since the moments of inertia of theflyweigh't are functions only of their degree of movement, not a "function complicated by change of attitude.

This relatively constant position of erectness of the l iywe'i'ghts, also makes it possible (to construct the individual hyweights in unusual conrigor-amon rather than as conventional ballshaped weights. Thus, in the forms of governor illustrated herein by Way of example, the fly- "weights are shaped and formed to afiord great mass in a small circular compass about a governor shaft. In fact, the "fiyweights in a sense embrace or follow around the main governor shaft by which "they are supported. The housing is accordingly exceedingly small for the work capacity of the/governor.

A further. advantage present in governors conoccur to those skilled in theart from a perusal of the ensuing description and the accompanying drawings, wherein several complete and specific embodiments are 'set forth by Way of example. However, it is to be understood "that the spirit and scope of the present invention "is 'not limited "to the forms shown and described, or otherwise "than as defined in the appended claims.

In the accompanyin drawings:

Fig. l is a general vertical cross-sectional view (of one form of the governor of the present inventio'n; i Fig. 2 is a "cross se'ctio'nal view taken on the line II II"ofFig. 1;

3 is a fragmentary o'ros's-sec'tional view taken on the line III--III of Fig. 1;

Fig. 4 is a view similar to Fig. 1 of another form of the'go'vernor of the present invention;

Fig. 5 is a detailed 'el'evational view, partly in cross section, showing a modification of the flyweight arra'ngement of the governor of Fig. 4;

Fig. '6 is a top plan View of the arrangement 'o'f Fig. 5.; and,

Fig. "7 'is a hori'Zon'tal "cross-{sectional view taken on the line VIIVII or Fig. 5.

Throughout the several figures of the drawing like characters of reference den'otelike parts and in the embodiment of Fi s. 1, 2 and 3, the numeral lll "designates 'a overnor drive shaft jcurnaled in anti-friction bearings l1 and f2 at its upper and lower ends, respectively. The lower bearing 12 is supportedv in a base. or mounting plate l3 and .a housing or casing I 4 isseeure'd toplate 13, as by means or screws or the like '(not shown) to encase the governor mechanism. The upper bearingll is supported in a bracket i5 which is rigidly secured to an interior-wall of housing 14 in any desired manner. v

The governor drive shaft I0 is driven from an engine orother prime mover to be governed, or from any other source involving a factor of speed subject to fluctuation, wherein it is desired to control apparatus according to the speed fluctuations. By way of example, reference will be had herein to governors applied to engines having variable fuel throttle controls which may be auto- .or proximity to the shaft I0.

matically adjusted in accordance with variations in speed. Such undesired changes of speed are usually caused by changes in the load on the engine or other prime mover, so that an increase in load causes a slowing of the engine and calls for a further opening of the throttle to restore the engine to desired speed.

The speed-sensitive or speed-responsive means supported by a pair of levers 22 at opposite sides.

thereof. The weight I9 is pivotally attached to corresponding ends of levers 22 and the weight is pivotally attached to the opposite ends of levers 22.

A second pair of levers 24 support weights 8 and 2| in a similar manner and the set of levers 22 and 24 at each side of the fiyweights is notched,

as at 25 and 21, respectively, so that the levers may lie in substantially the same plane. A com- Imon pivot pin 28 extends through the shaft l0 ,and the four levers 22 and 24 to support the fiyweights in such a manner that they may move away from shaft Ill under the influence of centrifugal force produced through rotation of shaft 10, by oscillation of levers 22 and 24.

It is desired, in constructing the overnor of the present invention, that the fiyweights |8 through 2| shall always retain their vertically erect position, regardless of their distance from To this end each of the fiyweights I8 through 2| has a link, designated respectively 30 through 33, connecting pivotally with shaft ID. The several links have the same effective lever armsas the opposite arms of each lever 22, 24 and extend parallel thereto,

weights l8 and 2| must move equal distances toward and from the shaft ID in synchronism and the weights l9 and 20 must likewise move in synchronism with respect to each other. It is desired that all four weights shall be so constrained and this end is accomplished by the manner in which a pair of the fiyweights, in the present instance the weights I8 and 9, are connected to a speeder rod 35. The rod is axially movable in a bore formed in shaft Ill and a pair of links 36 and 31 each have an end pivotally disposed in a bifurcation 38 formed in the lower end of speeder rod 35. The shaft I0 is transversely slotted to acconnection with speeder rod 35 and are alike as to length, they form a further parallelogram linkage with the upper ends of levers 22 and 24 and constrain the levers 22 and 24 to synchronous movement of all four fiyweights.

Because of the continuously erect or vertical position which the fiyweights are constrained to assume at all times, they may be of the elongate form shown and, as appears from Fig. 3, may beactually formed to fit partially about shaft II]. This gives an extremely high rotating mass within a small radial limit and makes for a highly efficient governor construction.

Further, the particular linkage and leverage "employed for supporting the fiyweights 4 through 2| and for definin their centrifugal movement is such that a very slight centrifugal movement of the fiyweights gives a substantial axial actuation of the speeder rod. It will be noted that as the upper weights move outwardly they also move downwardly as viewed in Fig. and thus two components of axial movement are imparted to speeder rod 35 through links 31. This makes for extreme accuracy of governing and the resultant governor is more sensitive and at the same time has greater stability than centrifugal mechanical governors heretofore known and used.

A collar 43 formed on speeder rod 35 and a second collar 44 pinned thereto as shown in Fig. l, or otherwise secured, serve to fasten the speeder rod axially to the inner race of a ball bearing 45, the outer race of which is contained within a trunnion collar 45 having oppositely extending trunnion pins 41. A speeder lever 5|! has a forked end 5| whose opposite projections are longitudinally slotted as at 52 to engage the trunnion pins 41. The speeder lever has secured rigidly thereto in any desired manner a pair of oppositely extending fulcrum pins 54 which are journaled in bearings 55 formed in the housing [4 and which pivotally supportthe lever 50.

The outer end of lever 50 is provided with novel spring biasing means which tend to rotate the speeder lever in a clockwise direction as viewed in Fig. 1. It will be noted that this bias is opposed to the action of centrifugal force on the fiyweights l8 through 2| which tends to pull downwardly on speeder rod 35 and accordingly tends to rotate lever 59 in a counterclockwise direction as viewed in Fig. 1. The novel means for mounting and ad- .justing the biasing effect of the spring biasing means will now be described.

Referring to Fig. l, the numeral 58 designates .an extension coil spring having one end securely attached to an internally threaded collar 59 and its opposite ends clamped between opposed gripping elements 50 which extend from the bottom of an upwardly bifurcated yoke 63. The upper ends of yoke 53 are pivoted to opposite sides of a nut 64 which slides along lever 59 when a screw 65, which extends through nut 64, is rotated. The

screw 65 is positioned on lever 50 by a pair of bearing brackets 55 and 61 which support the screw against axial displacement but permit free rotation. A headed end 68 of screw 65 facilitates rotation thereof to slide nut 64 along lever 50 and accordingly vary the effective lever arm of the tensile force of spring 58 against lever 50 and against the centrifugal flyweight mechanism. This adjustment determines the sensitivity setting of the governor, that is, the amount of adjustment of position which the fiyweights will make for a given load or speed change.

The collar 59 at the lower end of spring 58 is internally threaded to receive a screw 10, the head end of which is bifurcated and pivotally attached 'to a block H which is supported in a U-shaped housing l4 shaft 11 is provided with a manipulating knob 18.

It is believed obvious from the foregoing that manipulation of knob 18 in opposite directions will move collar 59 along screw Ill to vary the initial tension of spring 58 and this tension will determine the speedsetting of the governor. In-

fixed to its inner end a pinion 88.

creasing the tensionof' spring. 50? increasesxthe speed to which the governor will hold a prime mover towhich it is connected, and vice versa. The knob 18' is also employed for synchronization in multiple prime mover installations.

It will be noted that the speeder' lever pivot pins 54project beyond the bearings 55' at the outside of casing I 4. This permitstheattachment of a terminal arm 80 to a pivot pin 54 at one side of'casing I4. The terminalarm'80 may be connected to the fuel control mechanism of a primemover or toany other control means in other governor adaptations.

At the othersid'e of lever 50 the pivot pin- 50 is arranged to cooperate with means for selectively and quickly adjusting the sensitivity setting of th'egovernor by rotation of the screw- 65. Such means will now be described and, as will appear, makes it possible to adjust sensitivity during operation and regardless of the position of lever 50 at the time that an adjustment is desired. Atthis side of easing ID the bearing 55 has a larger bore whereby to receive a sleeve 85 which terminates outwardly in a; manipulating knob 86. The sleeve 05 is disposed for free rotation about'the. adjacent pivot pin 50 and'has The sleeve assembly is; normally urged outwardly to the position illustrated in. Fig. 2 by a compression coil spring 89. A. bearing carried by lever 50 receives a stub shaft 9| which has fixed thereto a mating pinion 92for meshing engagement with pinion 805. At its other end shaft Ell has a bevel gear 93 which meshes with a bevel gear 94'fixed to screw 65.

When it is desired'to adjust the sensitivity setting by means of knob 86 the pinions may be brought into meshing engagement, regardless of the inclination of lever 50, by depressing knob 80 against the resistance of spring 89'. Screw may then be freely rotated'by rotation of "knobBB.

Reference will now be had to the embodiment of. the governor. of the present invention illus trated in Fig. 4 wherein only a single iiyweight is provided at each side of the mainshaft but wherein, as in the previously described embodiment, means are provided whereby the flyweights retain their vertical erectness in all phases of operation.

In Fig. 4 the numerallilll designates a governor drive shaft journaled in anti-friction bearings IDI and I02 at its upper and lower ends, respectively. The lower bearing I 02 is supported in a base or mounting plate I03 and a housin or casing I04 is securedthereover in any desired manner. The upper bearing IOI is carried by a bracket I05 which projects rigidly from the inner wall of casing I04.

The speed-sensitive or speed-responsive means of thegovernor. of, Fig. 4 comprises a pair of'flyweights I0.8.and I09 and each is supported by parallelogram linkage which connects pivotally with shaft I00. In the case of'fiyweight. I08 upper and lower links H0 and III are provided in the Case of flyweight I09 upper andlower links IIZ and H3. The severalvlinks support the flyweights for movement toward and. away from shaft I00. in a manner which retains their parallelismwith respect to shaft I00 at all positions of .the flyweights.

The upper end of shaft I00 is bored to receive a. speeder rod II6 which is free to move axially therein and is connected to the fl'yweights I00 and I09 by links II! and H8, respectively. For con-- venience the links III and I I8 may have common pivotal connection- WithEHnkS'l I 'I 0: and;- I I2 at the flyweights I08 and I09. In: addition to translating radial movement of the fiyweights to; axial movement of speeder rod II6-, the links II! and H0 cooperate with the parallelogram linkage. to synchronize the radial movements of the flyweights I08 and I0 9with respect to: each other.

i As the weights I08 and I09 move outwardly about'the supporting links IIIB' through 35131183 have a considerably greater component 'of downwardmovement as viewed. in Fig. 41 This is due to thefact that the; links IIfltthrough I'I3 are initiallysomewhat closer to the horizontal than to the vertical. This-produces a much amplified axial movement of speeder rod H6. The fact that; especially as higher speeds are attained, the greater part of thecentrifugal force of the weights is absorbed by thG'i-llllksffls a horizontal component, rather than: by the governor spring mechanism, permitsvastly wider speed range adjustment that has heretofore been considered possible in centrifugal governors;

This increase .inchoiceof speed'range'or fluc tuation permits the use of ithe present centrifugal governor in application heretofore considered unfeasible. In one instance a governor of the present type having a fluctuation of nearly two hundred'per cent maybe employed in a railway locomotive to automatically. vary the lead .of the valves as the locomotive operates at various speeds. The wide speed range" of" operation likewise' makes the. present governor available for controlling automotive vehicle operation.

In designing governors of the present invention for particular uses the initial orrmean inclination of thesupporting links will be determined by the relative importance or range of fluctuation as contrasted with extreme sensitivity.

If the center of gravity of the weights I00 and I00 be dis-posedat a point midway between the pivotal connections of links In and III with fiyweight I08 and midway between the pivotal connections oflinks H8 and H3 with flyweight I09, thelinks H0 and H2 may be omitted for purposes of simplification.

A collar I formed on speeder rod I I6 and a threaded collar I2I engaging the end of the speeder rod serve to secure it axially to the inner race of a ball bearing I22, the outer race of which is pressed into a guide plate I23. The plate I23 is vertically guided by sliding upon pins I 24 screwed; into or otherwise fixed to bracket I05.

A speeder lever I26-hasa fixed intermediate pivot I27 supported by the wall of casing I08 and one of.its'arms I28'has its outer end connected to plate I23 by means-of links I29. The other arm I30 of lever I25 connects pivotally with one end of a spring, rod I31 and the details of a special Speeder spring arrangement will presently be" described.

It will be noted that arm I30 of lever I20 ex tends at an oblique angle with respect to rod ,I3I so that increases in speed, which tend to the governor-is set, since the leverarm Of the spring is reduced as' its tension increases.

The speeder spring proper, designated generally I33; is made up of three sections; I 34, I35

and I36, connected in end-to-endrelationship.

The connection may bezby means of'collars I38 and I39' into which" the ends of the springs 7 may be cast or otherwise embedded or secured. The collars I 38 and I39 slide about rod I3I and cooperate further therewith in a manner which will presently appear.

As shown in Fig. 4, the to end of spring section I34 is fixed to rod I3I in any desired manner and the bottom end of spring section I33 en-- gages the eye of an eye bolt I40. Eye bolt I40 threads into a bushing I4I which has an enlargement at its lower end and a bevel gear I42 pinned to its upper end, whereby the gear and bushing assembly are freely rotatable with respect to base plate I03. A mating pinion I44 and a manipulating knob I45 are journaled in casing I08, in the same manner as pinion 16 and knob 18 of the embodiment of Figs. 1 and 2, and manipulation of knob I45 adjusts eye bolt I40 axially in an obvious manner.

The adjustment afforded by the means just described affords a very wide speed range and the manner of adjusting to determine speed range will now be further set forth. It will be noted that spring I34 is of relatively small gage wire, spring I35 of heavier gage, and spring I36 of still heavier gage. Rod I3I is provided with fixed enlargements or collars I50 and II.

With the eye bolt I40 in the illustrated position the adjustment is for the low speed range and spring I34 will take the major part of the fiexure due to changes in speed of shaft I00. If eye bolt I40 be adjusted downwardly as viewed in Fig. 4 until collar I50 on rod I3I engages the collar I38 which connects springs I34 and I35, spring I34 is in effect cut out of further action. This is the setting for the intermediate speed range and intermediate spring I35 then takes the major part of the flexure.

Still further downward adjustment of eye bolt I40 brings collars I5I and I39 into abutment, and then heavy spring I36 takes all further vari ations in load. This is the high speed range setting.

Figs. 5, 6 and '1 illustrate a modification of the lever arrangement of Fig. 4 aimed at still greater compactness and further illustrate resilient means urging the flyweights directly toward each other. In this way the main centrifugal urge of the flyweights is borne directly by the flyweight springs and only the changing forces due to speed variation need be transmitted to the speed regulating or speeder spring. This eliminates much of the frictional forces otherwise developed in the linkage and leverage between the fiyweights and the speeder spring.

Referring to Figs. 5, 6 and '1, the numerals I60 and I6I designate a pair of fiyweights associated with a governor drive shaft I62. Flyweight I60 is provided with upper and lower parallel links I63 and I64 and fiyweight I6I is provided with upper and lower links I65 and I66. The links I63 through I66 are offset at their interengaging ends as shown in Fig. '1, where they are jointlypinned to shaft I62 as indicated at I68.

Straddling links I63 through I66 are pairs of links I18 and Ill which have common pivotal connection with the flyweights and the lower links I64 and I66. At their upper ends links I10 and I'll engage pivotally with a bar I13 which is fixed to a speeder rod I14 which is axially slidable in shaft I62.

In the illustrated instance the flyweights I60 and I6I are formed with openings to accommodate pper and lower pairs of extension springs I15 and I16 which have their opposite ends pinned to the fiYWeights I and HM. As previously stated, these springs take all of the centrifugal force up to the lowest speed at which the governor is intended to operate, while a speeder spring like that of either Figs. 1 or 4 takes the centrifugal force due to variations from the lowest to the highest operating speed.

What is claimed is:

1. Centrifugal governor mechanism comprising a rotatable drive shaft, a pair of centrally pivoted crossed levers having their centra1 pivot carried'by said shaft, a fiy-weight pivotally supported at each outer end of each of the crossed levers, means normally urging said fly-weights toward said shaft, means for synchronizing the oscillation of the two levers away from and toward said shaft under the influence of varying centrifugal force on said fly-weights occasioned by variations in the speed of rotation of said shaft, and a link spaced from said levers connecting pivotally between each fly-weight and the drive shaft for maintaining the fly-weights in a constant attitude during movements of the fly-weights toward and awa from the drive shaft.

2. Centrifugal governor mechanism comprising a rotatable drive shaft, a pair of centrally pivoted crossed levers having their centra1 pivot carried by said shaft, a fly-weight pivotally supported at each outer end of each of the crossed levers, means normally urging said fly-weights toward said shaft, and a link spaced from said levers connecting pivotally between each fly weight and the drive shaft for maintaining the fly-weights in a constant attitude during movements of the fly-weights toward and away from the drive shaft.

3. Centrifugal governor mechanism comprising rotatable drive means and a fly-weight at each side thereof and supported thereby, a pair of supporting arm elements for each fly-weight, each arm element extending pivotally between the drive means and its fly-weight and the pair of arm elements of each fly-weight being spaced along the axis of the drive means and parallel to each other whereby each fly-weight maintains a constant attitude with respect to the axis of rotation during movement toward and away from said axis under the influence of varying centrifugal force on said fly-weights occasioned by variations in the speed of rotation of said drive means, and means normally urging said fly-weights toward said axis.

4. Centrifugal governor mechanism comprising rotatable drive means and a fly-weight at each side thereof and supported thereby, a pair of supporting arm elements for each fly-weight, each arm element extending pivotally between the drive means and its fly-weight and the pair of arm elements of each fly-weight being spaced along the axis of the drive means and parallel to each other whereby each fly-weight maintains a constant attitude with respect to the axis of rotation during movement toward and away from said axis under the influence of vary ing centrifugal force on said fly-weights occasioned by variations in the speed of rotation of said drive means, a speeder rod movable axially with respect to said drive means, means connecting said fly-weights and supporting arms with said speeder rod whereby inward and outward movements of the fly-weights produce axial movements of the speeder rod, and means acting against said speeder rod for normally urging said fly-weights toward said axis.

5. Centrifugal governor mechanism comprising a rotatable drive shaft and a fly-weight at each side thereof and supported thereby, each fly-weight comprising an elongate block extending substantially parallel to the drive shaft and adapted to lie closely adjacent said shaft, a pair of supporting arm elements for each fly-weight, each arm element extending pivotally between the drive means and its fly-weight and the pair of arm elements of each fly-weight being spaced along the axis of the drive means and parallel to each other whereb each fiyweight maintains a constant parallel attitude with respect to the drive shaft during movement toward and away from said axis under the influence of varying centrifugal force on said fly-weights occasioned by variations in the speed of rotation of said drive means, and means normally urging said fiy-weights toward said shaft.

6. Centrifugal governor mechanism comprising a rotatable drive shaft, a pair of centrally pivoted crossed levers having their central pivot carried by said shaft, a fly-weight pivotally supported at each outer end of each of the crossed levers, each fiy-weight comprising an elongate block extending substantially parallel to the drive shaft and adapted to lie closely adjacent said shaft, means normally urging said flyweights toward said shaft, means for synchronizing the oscillation of the two levers away from and toward said shaft under the influence of varying centrifugal force on said fly-weights occasioned by variations in the speed of rotation of said shaft, and a link spaced from said levers connecting pivotally between each flyweight and the drive shaft for maintaining each fly-weight in an attitude parallel to said shaft during movements of the fiy-weights toward and away from the drive shaft through oscillation of the supporting levers.

7. Centrifugal governor mechanism comprising rotatable drive means and two fiy-weights supported at each side of the axis of rotation thereof, a pair of supporting arm elements for each fly-weight, each arm element extending pivotally between the drive means and its 113 Weight and the pair of arm elements of each fly-weight being spaced along said axis and parallel to each other whereby each fly-weight maintains a constant attitude with respect to the axis of rotation during movement toward and away from said axis, means for synchronizing the movement of the several fly-weights toward and away from said axis under the influence of varying centrifugal force on said flyweights occasioned by variations in the speed of rotation of said drive means, and means normally urging said fly-weights toward said axis.

8. Centrifugal governor mechanism comprissing rotatable drive means and two fly-weights supported at each side of the axis of rotation thereof, a pair of supporting arm elements for each fly-weight, each arm element extending pivotally between the drive means and its flyweight and the pair of arm elements of each fly-weight being spaced along said axis and parallel to each other whereby each fly-weight maintains a constant attitude with respect to the axis of rotation during movement toward and away from said axis, means for synchronizing the movement of the several fly-weights toward and away from said axis under the influence of varying centrifugal force on said fiy-weights occasioned by variations in the speed of rotation of said drive means, and means normally urging said fiy-weights toward said axis, the arm elements of a fly-weight at one side of said drive means being disposed oppositely from the other fly-weight at the same side of the drive means with respect to the axis of the drive means, whereby end thrust on the drive means is substantially eliminated,

9. Centrifugal governor mechanism compris ing rotatable drive means and two fly-weights supported at each side of the axis of rotation thereof, a pair of supporting arm elements for each fly-weight, each arm element extending pivotally between the drive means and its flyweight and the pair of arm elements of each fly-weight being spaced along said axis and parallel to each other whereby each fly-weight maintains a constant attitude with respect to the axis of rotation during movement toward and away from said axis, a speeder rod movable axially with respect to said drive means, means connecting said fly-weights and supporting arms with said speeder rod whereby inward and outward movements of the fly-Weights produce axial movements of the speeder rod and the movements of the several fly-weights toward and away from said axis are synchronized, and means acting against said speeder rod for normally urging said fiy-weights toward said axis.

10. Centrifugal governor mechanism comprising rotatable drive means and a flyweight at each side thereof and supported thereby, a pair of supporting arm elements for each fiy-weight, each arm element extending pivotally between the drive means and its fly-weight-and the pair of arm elements of each fly-weight being spaced along the axis of the drive means and parallel to each other whereby each fiy-weight maintains a constant attitude with respect to the axis of rotation during movement toward and away from said axis under the influence of varying centrifugal force on said fly-weights occasioned by variations in the speed of rotation of said drive means, a speeder rod movable axially of said rotatable drive means, and a link connecting the fiy-weight and supporting arm elements with the speeder rod for axial movement of the latter by the former.

ARMIN H. RODECK. ALBERT G. MASSEY.

REFERENCES CITED The following referenlces are of record in the file of this patent:

UNITED STATES PATENTS 

